An interchangeable die system in accordance with the present invention may include two main parts: a shank and a die assembly. The shank is a structural frame that is secured to and remains attached to the die casting machine during a change of the die assembly. The die assembly consists of a die, an adaptor plate and an ejector plate assembly. The die assembly is secured to the shank using the adaptor plate and a locking cam. A spool assembly slides within the shank to actuate the ejector plate assembly.
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1. A method of coupling a die with a die casting machine, wherein the die casting machine includes a shank portion having a front face, a rear face, a top portion and a bottom portion defining a cavity and a spool operatively disposed within the cavity, the method comprising:
providing die, the die including a mold portion; operatively coupling an adaptor plate to a surface of the die to form a die assembly; providing an ejector plate, and operatively coupling the ejector plate to the die assembly; securing the die assembly to the shank while substantially simultaneously operatively coupling the ejector plate to the spool.
8. A method of coupling a die with a die casting machine, wherein the die casting machine includes a shank portion, the shank defining a cavity, and a spool operatively disposed within the cavity, the method comprising:
providing the shank with a die assembly interface, the die assembly interface adapted to couple to a die assembly and having a die assembly receiving formation of a predetermined dimension, providing a die assembly with a shank interface and an ejector assembly, the shank interface adapted to couple to the shank at the die assembly interface, and the die assembly interface having a shank assembly engaging formation, the shank assembly engaging formation having a complimentary configuration to the die assembly receiving formation, and securing the die assembly to the shank by engaging the shank engaging formation with the die assembly receiving formation and operatively coupling the ejector assembly to the spool.
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the die assembly includes a die having a mold portion and an adaptor plate, the ejector assembly includes an ejector plate and the shank assembly engaging formation comprises a first flange formed on the adaptor plate and a second flange formed on the ejector plate, the die assembly engaging formation comprises a first slot formed in the shank and a second slot formed in the spool, and the step of securing the die assembly to the shank comprises slideably receiving the first flange within the first slot and the second flange within the second slot.
11. The method of
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This application is a divisional application of U.S. application Ser. No. 09/808,444, filed Mar. 14, 2001 now U.S. Pat. No. 6,422,297, the disclosure of which is hereby expressly incorporated herein by reference.
This application claims priority to U.S. provisional patent application Serial No. 60/189,590, entitled "Interchangeable Die for a Die Casting Machine and Method," filed Mar. 15, 2000, the disclosure of which is hereby expressly incorporated herein by reference.
1. Field of the Invention
The invention relates generally to die casting, and more particularly, the invention relates to interchangeable dies for a die casting machine.
2. Description of the Related Art
An injection molding machine or die casting machine operates at a high speed to produce hundreds of die cast products per hour. Between the production of two different die cast products, the die for forming one part must be removed from the die casting machine and a new die must be inserted into the casting machine to form the new part. Because each die casting machine is a complex mechanical assembly including such parts as lock-out pins, ejector pins, slides, pulls, coolant lines and removable dies or molds to create the desired shapes, it is labor intensive and time consuming to disassemble the machine to change the die. Typically, each die has accessory components such as those previously mentioned that must be detached, reattached and/or appropriately adjusted to accommodate each new die. In addition, a die consists of two or more portions that when closed together define a cavity into which the die cast material, such as zinc, is injected. Each die portion is typically coupled to a shank that serves as a structural frame and connects the die portion to a toggle mechanism of the die casting machine. Because the die portion is secured to the shank, typically by machine screws that extend longitudinally through the shank and engage a rear surface of the die portion, the shank and die portion must be removed together from the die casting machine when changing dies. With current die casting machines and die designs, skilled technicians may spend hours disassembling the machine to remove and reinsert a new die.
As can be appreciated from the foregoing discussion, changing a die in current die casting machines is very time-consuming and may often take as long as several hours. While the dies are changed, the machine recalibrated and the accessories reconnected to conform to a new die, the machine sits idle wasting valuable production time. This idle time is undesirable because it affects the profitability of the machine, e.g. a long downtime to change dies means less parts are produced and thus less profit to the company. So, to maximize the productivity of each die casting machine, the time required to change the die must be reduced. With such a reduction in change time, consumers will benefit because manufacturing costs will decrease and ultimately be passed to the consumer in the form of less expensive products in the stores.
There have been attempts to increase the speed at which dies are changed. In U.S. Pat. No. 5,350,289, a quick change system is disclosed that has a mold base including an ear plate for attachment to the back half of the mold base and an adaptor frame including a pair of U-shaped guide channels for receiving and supporting the ear plate. T-shaped guide rollers are mounted in line with each side of the guide channel to capture the ear plate and keep the ear plate in line with the adaptor frame. While the guide rails and corresponding rollers ease the transferability of the molds, the addition of parts makes the fabrication of the machine assembly more complex and may, therefore, increase manufacturing costs.
In U.S. Pat. No. 5,562,935, an injection molding machine having a multi-port apparatus for connecting multiple coolant lines to a mold during installation is disclosed. While such an apparatus and its corresponding coolant lines may decrease the amount of time required to change the mold base, the multi-port apparatus also increases the complexity of the injection molding machine and may, therefore, complicate die changing and thereby increase manufacturing costs.
Thus, there is a need for an interchangeable die for a die casting machine and a method for changing dies in a die casting machine that reduces the time and labor required to make a die change.
In accordance with a preferred embodiment of the invention, a "Quick-Change" die provides an interchangeable die that allows the die or die assembly including the die and its corresponding attachments to be removed from the die casting machine independent of the shank which remains coupled to the casting machine. The interchangeable die construction greatly reduces the amount of time skilled technicians must spend changing dies and overcomes other disadvantages associated with the prior art by eliminating the necessity to disassemble other portions of the die casting machine not directly related to the die itself, such as sensors, coolant lines, mechanical connectors and the like, that are attached to the shank.
In accordance with a further preferred embodiment of the invention, a method, in conjunction with an interchangeable die design, is provided for facilitating the insertion and removal of various dies from a die casting machine.
An interchangeable die system in accordance with the present invention may include two main parts: a shank and a die assembly. The shank is a structural frame that is secured to and remains attached to the die casting machine during a change of the die. The die assembly consists of a die, an adaptor plate and an ejector plate. The die assembly is secured to the shank using the adaptor plate and a locking cam. A spool assembly slides within the shank to actuate the ejector plate assembly. The ejector plate assembly, located within the cavity of the shank, is engaged by the spool assembly.
The many advantages and features of the present invention will be appreciated from the following detailed description of several preferred embodiments with reference to the attached drawings wherein like reference numerals are used to represent like elements, and in which:
Referring to
Referring to
With continued reference to FIG. 2 and reference also to
As shown in FIG. 1 and
In accordance with the preferred embodiments of the invention, the die assembly 30 is interchangeable, that is, it may be removed from the die casting machine 10 independent of the shank 26, which remains coupled to the die casting machine 10. With continued reference to
The adaptor plate 50 includes flanged extensions 56 that engage slotted channels 58 formed within the cavity 44 of the shank 26 (FIG. 3). The engagement of the extensions 56 into the channels 58 securely engage the die assembly 30 with the shank 26. To secure the die assembly 30 to the shank 26, a cam plate 60 is secured using threaded fasteners in a relief 37 formed in the front face 36 of the shank 26 (FIG. 2). As will be appreciated, the die assembly 30 may be removed simply be sliding it relative to the shank 26. As can be seen in
When a part is formed, it is necessary to eject the formed part from the die member 48. This is accomplished by providing ejector pins that extend through apertures 54 formed in the die 50 and into the mold portion 53. In accordance with the preferred embodiments of the invention, and with reference to
The spool 46 is housed within the shank 26, and in accordance with the invention, remains within the shank 26 during the changing of a die assembly 30. As the die assembly 30 is separated from the shank 26, by sliding it from the shank 26 during a change of the die assembly 30, the ejector plate assembly 66 disengages from the spool 46, i.e., the flanges 76 disengage from the slot 84.
During operation of the die casting machine 10, the spool 46 remains stationary within the shank 26 relative to the die casting machine 10 during displacement of the shank 26, i.e., during closing and opening of the die assemblies 30. A cam (not shown) extends from the die casting machine 10 and through a slot 86 formed in the shank 26 (
The first and second piston plates 78 and 80 are sized to be slidingly received within the chamber 44 of the shank 26. In a preferred embodiment, two pins 88 extend outwardly, in opposing direction, from the top side 90 and bottom side 92 the hub 75 and a single pin 94 extends outwardly, in opposing directions, from the front side 96 and the back side 98 of the hub 75. While six pins are described, one will appreciate that fewer or more pins may be used for this purpose.
In accordance with the invention, a plurality of die assemblies, each adapted for the production of different part or parts, may be constructed. Each die assembly in accordance with the invention includes a die member, adaptor plate and an ejector plate assembly. The die assemblies may be further adapted for the connection of cooling lines, production automation, and the like. The die assemblies may be quickly and easily changed by first disconnecting any attached cooling lines, production automation or the like. Next, the cam plates are removed freeing the die assemblies from their associated shanks. Replacement die assemblies may then be secured to the shanks. In doing so, the spools are engaged with the respective ejector plate assembly, and the die assemblies are secured using the cam plates. The accessory items, such as cooling lines, are reconnected and any final machine adjustments completed. Preferably, the die, adaptor plate and associated ejector plate assembly may be sized so as to provide a standardized die assembly so as to minimize adjustments to the die casting machine. That is, by providing substantially commonized die assemblies, adjustments to the die casting machine, such as die closing force, may be minimized.
The present invention has been described in terms of several preferred embodiments, each of which are intended to illustrate the principles of the present invention. One of ordinary skill in the art will appreciate that invention may be otherwise embodied without departing from the scope and spirit of the invention set forth in the subjoined claims.
Patent | Priority | Assignee | Title |
6793002, | Mar 08 2002 | TECHMIRE LTD | Multiple-slide die-casting system |
6883583, | Dec 26 2001 | Toyota Jidosha Kabushiki Kaisha | Die changing apparatus of molding die |
6938671, | Mar 08 2002 | Techmire Ltd. | Multiple-slide die-casting system |
Patent | Priority | Assignee | Title |
3733161, | |||
4009979, | Jun 26 1974 | Master Unit Die Products, Inc. | Molding die apparatus |
4158910, | Jun 16 1977 | Honeywell Inc. | Injection molding method and apparatus for accommodating various sizes of molding die inserts |
4202522, | Jun 16 1977 | Honeywell Inc. | Injection molding apparatus for accommodating various sizes of molding die inserts |
4348165, | Sep 25 1979 | Krauss-Maffei Aktiengesellschaft | Assembly for clamping mold to platens of injection-molding machine |
4416604, | Jun 01 1981 | VENALECK, JOHN T; GABOR ROBERT J ; VENALECK, HOWARD J ; LOUIE, GERALD, A ; TINGLEFF, RAYMOND, D ; TINGLEFF MARY GLENN; MOLL, HORST E ; Minnesota Mining and Manufacturing Company | Universal molding system and method |
4472127, | Apr 26 1982 | Battenfeld Maschinenfabriken GmbH | Mold-changing apparatus for injection-molding machine |
4500274, | Apr 26 1982 | Battenfeld Maschinenfabriken GmbH | Quick-change mold assembly for injection-molding machines |
4500275, | Dec 23 1983 | Sharp Die & Mold Company, Inc., a subsidiary of R & R Plastic Material, | Quick change locator clamp assembly for plastic molding machine |
4714421, | Feb 11 1987 | National Tool & Manufacturing Co., Inc. | Quick-switch mold set with clamp means |
4776783, | Feb 14 1986 | D.J. Inc. | Plastic injection molding apparatus |
4786244, | Nov 04 1986 | Battenfeld GmbH | Coupling device |
4793785, | Apr 11 1986 | Apparatus of multiplunger type for enclosing semiconductor elements with resin | |
4805285, | Feb 19 1987 | Carol S., Morency | Method of changing injection molds |
4861254, | Apr 16 1987 | Shinkoh Sellbic Co., Ltd. | Cassette-type molding die |
4867668, | May 20 1986 | Nissei Jushi Kogyo Kabushiki Kaisha | Mold for plastic molding |
4872827, | Jul 02 1987 | KTX Co., Ltd. | Porous die |
4888252, | Aug 06 1986 | Mould sets for plastics moulding machines | |
4929166, | Nov 21 1988 | Husky Injection Molding Systems Ltd | Support for quick mold changing |
5012568, | Nov 18 1988 | Husky Injection Molding Systems Ltd. | Method for installing and replacing parts in an injection molding machine |
5022784, | Sep 17 1990 | UNITED STATES OF AMERICA, THE, AS REPRESENTED BY THE SECRETARY OF THE NAVY | Undertow reduction system for shoreline protection |
5033784, | May 15 1989 | Master Unit Die Products, Inc. | Mold balancing lifting bar |
5096404, | Oct 31 1990 | AT&T Bell Laboratories; AMERICAN TELEPHONE AND TELEGRAPH COMPANY, A CORP OF NEW YORK | Quick mold change arrangement for injection molding machines |
5350289, | Jul 27 1992 | DME Company LLC | Quick change system for mold bases |
5562935, | Jul 27 1992 | DME Company LLC | Quick change system for mold bases |
JP176346, | |||
JP240050, |
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